func (c *one_net_conn) block(d []byte) { BlocksMutex.Lock() defer BlocksMutex.Unlock() h := btc.NewSha2Hash(d[:80]) c.Lock() c.last_blk_rcvd = time.Now() c.Unlock() bip := BlocksInProgress[h.Hash] if bip == nil || !bip.Conns[c.id] { COUNTER("UNEX") //fmt.Println(h.String(), "- already received", bip) return } delete(bip.Conns, c.id) c.Lock() c.inprogress-- c.Unlock() atomic.AddUint64(&DlBytesDownloaded, uint64(len(d))) blocksize_update(len(d)) bl, er := btc.NewBlock(d) if er != nil { fmt.Println(c.peerip, "-", er.Error()) c.setbroken(true) return } bl.BuildTxList() if !bytes.Equal(btc.GetMerkel(bl.Txs), bl.MerkleRoot()) { fmt.Println(c.peerip, " - MerkleRoot mismatch at block", bip.Height) c.setbroken(true) return } BlocksCachedSize += uint(len(d)) BlocksCached[bip.Height] = bl delete(BlocksToGet, bip.Height) delete(BlocksInProgress, h.Hash) //fmt.Println(" got block", height) }
func (c *one_net_conn) block(d []byte) { atomic.AddUint64(&DlBytesDownloaded, uint64(len(d))) BlocksMutex.Lock() defer BlocksMutex.Unlock() h := btc.NewSha2Hash(d[:80]) c.Lock() c.last_blk_rcvd = time.Now() c.Unlock() bip := BlocksInProgress[h.Hash] if bip == nil || !bip.Conns[c.id] { COUNTER("BNOT") //fmt.Println(h.String(), "- already received", bip) return } //fmt.Println(h.String(), "- new", bip.Height) COUNTER("BYES") delete(bip.Conns, c.id) c.Lock() c.inprogress-- c.Unlock() blocksize_update(len(d)) bl, er := btc.NewBlock(d) if er != nil { fmt.Println(c.Ip(), "-", er.Error()) c.setbroken(true) return } bl.BuildTxList() if !bytes.Equal(btc.GetMerkel(bl.Txs), bl.MerkleRoot()) { fmt.Println(c.Ip(), " - MerkleRoot mismatch at block", bip.Height) c.setbroken(true) return } delete(BlocksToGet, bip.Height) delete(BlocksInProgress, h.Hash) if len(BlocksInProgress) == 0 { EmptyInProgressCnt++ } //println("got-", bip.Height, BlocksComplete+1) if BlocksComplete+1 == bip.Height { BlocksComplete++ BlockQueue <- bl for { bl = BlocksCached[BlocksComplete+1] if bl == nil { break } BlocksComplete++ delete(BlocksCached, BlocksComplete) BlocksCachedSize -= uint64(len(bl.Raw)) BlockQueue <- bl } } else { BlocksCached[bip.Height] = bl BlocksCachedSize += uint64(len(d)) } }
func (ch *Chain) CheckBlock(bl *btc.Block) (er error, dos bool, maybelater bool) { // Size limits if len(bl.Raw) < 81 || len(bl.Raw) > btc.MAX_BLOCK_SIZE { er = errors.New("CheckBlock() : size limits failed") dos = true return } // Check timestamp (must not be higher than now +2 hours) if int64(bl.BlockTime()) > time.Now().Unix()+2*60*60 { er = errors.New("CheckBlock() : block timestamp too far in the future") dos = true return } if prv, pres := ch.BlockIndex[bl.Hash.BIdx()]; pres { if prv.Parent == nil { // This is genesis block er = errors.New("Genesis") return } else { er = errors.New("CheckBlock: " + bl.Hash.String() + " already in") return } } prevblk, ok := ch.BlockIndex[btc.NewUint256(bl.ParentHash()).BIdx()] if !ok { er = errors.New("CheckBlock: " + bl.Hash.String() + " parent not found") maybelater = true return } // Reject the block if it reaches into the chain deeper than our unwind buffer if prevblk != ch.BlockTreeEnd && int(ch.BlockTreeEnd.Height)-int(prevblk.Height+1) >= MovingCheckopintDepth { er = errors.New(fmt.Sprint("CheckBlock: btc.Block ", bl.Hash.String(), " hooks too deep into the chain: ", prevblk.Height+1, "/", ch.BlockTreeEnd.Height, " ", btc.NewUint256(bl.ParentHash()).String())) return } // Check proof of work gnwr := ch.GetNextWorkRequired(prevblk, bl.BlockTime()) if bl.Bits() != gnwr { println("AcceptBlock() : incorrect proof of work ", bl.Bits, " at block", prevblk.Height+1, " exp:", gnwr) // Here is a "solution" for whatever shit there is in testnet3, that nobody can explain me: if !ch.testnet() || ((prevblk.Height+1)%2016) != 0 { er = errors.New("CheckBlock: incorrect proof of work") dos = true return } } if bl.Txs == nil { er = bl.BuildTxList() if er != nil { dos = true return } } if !bl.Trusted { // This is a stupid check, but well, we need to be satoshi compatible if len(bl.Txs) == 0 || !bl.Txs[0].IsCoinBase() { er = errors.New("CheckBlock() : first tx is not coinbase: " + bl.Hash.String()) dos = true return } // Check Merkle Root - that's importnant if !bytes.Equal(btc.GetMerkel(bl.Txs), bl.MerkleRoot()) { er = errors.New("CheckBlock() : Merkle Root mismatch") dos = true return } // Check transactions - this is the most time consuming task for i := 0; i < len(bl.Txs); i++ { er = bl.Txs[i].CheckTransaction() if er != nil { er = errors.New("CheckBlock() : CheckTransaction failed: " + er.Error()) dos = true return } if !bl.Txs[i].IsFinal(prevblk.Height+1, bl.BlockTime()) { er = errors.New("CheckBlock() : Contains transaction that is not final") return } } } return }
func (ch *Chain) CheckBlock(bl *btc.Block) (er error, dos bool, maybelater bool) { // Size limits if len(bl.Raw) < 81 || len(bl.Raw) > btc.MAX_BLOCK_SIZE { er = errors.New("CheckBlock() : size limits failed") dos = true return } if bl.Version() == 0 { er = errors.New("CheckBlock() : Block version 0 not allowed") dos = true return } // Check timestamp (must not be higher than now +2 hours) if int64(bl.BlockTime()) > time.Now().Unix()+2*60*60 { er = errors.New("CheckBlock() : block timestamp too far in the future") dos = true return } if prv, pres := ch.BlockIndex[bl.Hash.BIdx()]; pres { if prv.Parent == nil { // This is genesis block er = errors.New("Genesis") return } else { er = errors.New("CheckBlock: " + bl.Hash.String() + " already in") return } } prevblk, ok := ch.BlockIndex[btc.NewUint256(bl.ParentHash()).BIdx()] if !ok { er = errors.New("CheckBlock: " + bl.Hash.String() + " parent not found") maybelater = true return } height := prevblk.Height + 1 // Reject the block if it reaches into the chain deeper than our unwind buffer if prevblk != ch.BlockTreeEnd && int(ch.BlockTreeEnd.Height)-int(height) >= MovingCheckopintDepth { er = errors.New(fmt.Sprint("CheckBlock: btc.Block ", bl.Hash.String(), " hooks too deep into the chain: ", height, "/", ch.BlockTreeEnd.Height, " ", btc.NewUint256(bl.ParentHash()).String())) return } // Check proof of work gnwr := ch.GetNextWorkRequired(prevblk, bl.BlockTime()) if bl.Bits() != gnwr { println("AcceptBlock() : incorrect proof of work ", bl.Bits, " at block", height, " exp:", gnwr) // Here is a "solution" for whatever shit there is in testnet3, that nobody can explain me: if !ch.testnet() || (height%2016) != 0 { er = errors.New("CheckBlock: incorrect proof of work") dos = true return } } // Count block versions within the Majority Window var majority_v2, majority_v3 uint n := prevblk for cnt := uint(0); cnt < ch.Consensus.Window && n != nil; cnt++ { ver := binary.LittleEndian.Uint32(n.BlockHeader[0:4]) if ver >= 2 { majority_v2++ if ver >= 3 { majority_v3++ } } n = n.Parent } if bl.Version() < 2 && majority_v2 >= ch.Consensus.RejectBlock { er = errors.New("CheckBlock() : Rejected nVersion=1 block") dos = true return } if bl.Version() < 3 && majority_v3 >= ch.Consensus.RejectBlock { er = errors.New("CheckBlock() : Rejected nVersion=2 block") dos = true return } if bl.Txs == nil { er = bl.BuildTxList() if er != nil { dos = true return } } if !bl.Trusted { if bl.Version() >= 2 && majority_v2 >= ch.Consensus.EnforceUpgrade { var exp []byte if height >= 0x800000 { if height >= 0x80000000 { exp = []byte{5, byte(height), byte(height >> 8), byte(height >> 16), byte(height >> 24), 0} } else { exp = []byte{4, byte(height), byte(height >> 8), byte(height >> 16), byte(height >> 24)} } } else { exp = []byte{3, byte(height), byte(height >> 8), byte(height >> 16)} } if len(bl.Txs[0].TxIn[0].ScriptSig) < len(exp) || !bytes.Equal(exp, bl.Txs[0].TxIn[0].ScriptSig[:len(exp)]) { er = errors.New("CheckBlock() : Unexpected block number in coinbase: " + bl.Hash.String()) dos = true return } } // This is a stupid check, but well, we need to be satoshi compatible if len(bl.Txs) == 0 || !bl.Txs[0].IsCoinBase() { er = errors.New("CheckBlock() : first tx is not coinbase: " + bl.Hash.String()) dos = true return } // Check Merkle Root - that's importnant if !bytes.Equal(btc.GetMerkel(bl.Txs), bl.MerkleRoot()) { er = errors.New("CheckBlock() : Merkle Root mismatch") dos = true return } // Check transactions - this is the most time consuming task if !CheckTransactions(bl.Txs, height, bl.BlockTime()) { er = errors.New("CheckBlock() : CheckTransactions() failed") dos = true return } } if bl.BlockTime() >= BIP16SwitchTime { bl.VerifyFlags = script.VER_P2SH } else { bl.VerifyFlags = 0 } if majority_v3 >= ch.Consensus.EnforceUpgrade { bl.VerifyFlags |= script.VER_DERSIG } return }